#ifndef _CRC_CPP
#define _CRC_CPP
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#define _CRT_SECURE_NO_WARNINGS     //Disables fopen() security warning on Microsoft compilers.
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

#include <stdio.h>
#include <stdlib.h>
#include "genacje_salzmamy_crc.h"

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

CCRC32::CCRC32(void) {
    this->Initialize();
}


///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

CCRC32::~CCRC32(void) {
    //No destructor code.
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    This function initializes "CRC Lookup Table". You only need to call it once to
    initalize the table before using any of the other CRC32 calculation functions.
*/

void CCRC32::Initialize(void) {
    //0x04C11DB7 is the official polynomial used by PKZip, WinZip and Ethernet.
    unsigned long ulPolynomial = 0x04C11DB7;

    //memset(&this->ulTable, 0, sizeof(this->ulTable));

    // 256 values representing ASCII character codes.
    for(int iCodes = 0; iCodes <= 0xFF; iCodes++)
    {
        this->ulTable[iCodes] = this->Reflect(iCodes, 8) << 24;

        for(int iPos = 0; iPos < 8; iPos++)
        {
            this->ulTable[iCodes] = (this->ulTable[iCodes] << 1)
                ^ ((this->ulTable[iCodes] & (1 << 31)) ? ulPolynomial : 0);
        }

        this->ulTable[iCodes] = this->Reflect(this->ulTable[iCodes], 32);
    }
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Reflection is a requirement for the official CRC-32 standard.
    You can create CRCs without it, but they won't conform to the standard.
*/

unsigned long CCRC32::Reflect(unsigned long ulReflect, const char cChar) {
    unsigned long ulValue = 0;

    // Swap bit 0 for bit 7, bit 1 For bit 6, etc....
    for(int iPos = 1; iPos < (cChar + 1); iPos++)
    {
        if(ulReflect & 1)
        {
            ulValue |= (1 << (cChar - iPos));
        }
        ulReflect >>= 1;
    }

    return ulValue;
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Calculates the CRC32 by looping through each of the bytes in sData.

    Note: For Example usage example, see FileCRC().
*/

void CCRC32::PartialCRC(unsigned long *ulCRC, const unsigned char *sData, unsigned long ulDataLength) {
    while(ulDataLength--)
    {
        //If your compiler complains about the following line, try changing each
        //    occurrence of *ulCRC with "((unsigned long)*ulCRC)" or "*(unsigned long *)ulCRC".

         *(unsigned long *)ulCRC =
            ((*(unsigned long *)ulCRC) >> 8)
                 ^ this->ulTable[((*(unsigned long *)ulCRC) & 0xFF) ^ *sData++];
    }
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Returns the calculated CRC32 (through ulOutCRC) for the given string.
*/

void CCRC32::FullCRC(const unsigned char *sData, unsigned long ulDataLength, unsigned long *ulOutCRC) {
    *(unsigned long *)ulOutCRC = 0xffffffff; //Initilaize the CRC.
    this->PartialCRC(ulOutCRC, sData, ulDataLength);
    *(unsigned long *)ulOutCRC ^= 0xffffffff; //Finalize the CRC.
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Returns the calculated CRC23 for the given string.
*/

unsigned long CCRC32::FullCRC(const unsigned char *sData, unsigned long ulDataLength) {
    unsigned long ulCRC = 0xffffffff; //Initilaize the CRC.
    this->PartialCRC(&ulCRC, sData, ulDataLength);
    return(ulCRC ^ 0xffffffff); //Finalize the CRC and return.
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Calculates the CRC32 of a file using the a user defined buffer.

    Note: The buffer size DOES NOT affect the resulting CRC,
            it has been provided for performance purposes only.
*/

bool CCRC32::FileCRC(const char *sFileName, unsigned long *ulOutCRC, unsigned long ulBufferSize) {
    *(unsigned long *)ulOutCRC = 0xffffffff; //Initilaize the CRC.

    FILE *fSource = NULL;
    unsigned char *sBuf = NULL;
    int iBytesRead = 0;

    if((fSource = fopen(sFileName, "rb")) == NULL)
    {
        return false; //Failed to open file for read access.
    }

    if(!(sBuf = (unsigned char *)malloc(ulBufferSize))) //Allocate memory for file buffering.
    {
        fclose(fSource);
        return false; //Out of memory.
    }

    while((iBytesRead = fread(sBuf, sizeof(char), ulBufferSize, fSource)))
    {
        this->PartialCRC(ulOutCRC, sBuf, iBytesRead);
    }

    free(sBuf);
    fclose(fSource);

    *(unsigned long *)ulOutCRC ^= 0xffffffff; //Finalize the CRC.

    return true;
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/*
    Calculates the CRC32 of a file using the a default buffer size of 1MB.

    Note: The buffer size DOES NOT affect the resulting CRC,
            it has been provided for performance purposes only.
*/

bool CCRC32::FileCRC(const char *sFileName, unsigned long *ulOutCRC) {
    return this->FileCRC(sFileName, ulOutCRC, 1048576);
}

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#endif
